Journal
NATURE CELL BIOLOGY
Volume 5, Issue 11, Pages 972-979Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/ncb1059
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Funding
- NIGMS NIH HHS [R01GM57256] Funding Source: Medline
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Regulated actin filament assembly is critical for eukaryotic cell physiology. Actin filaments are polar structures(1), and those with free high affinity or barbed ends are crucial for actin dynamics and cell motility(2). Actin filament barbed-end-capping proteins inhibit filament elongation after binding(3), and their regulated disassociation is proposed to provide a source of free filament ends to drive processes dependent on actin polymerization(4). To examine whether dissociation of actin filament capping proteins occurs with the correct spatiotemporal constraints to contribute to regulated actin assembly in live cells, I measured the dissociation of an actin capping protein, gelsolin, from actin in cells using a variation of fluorescence resonance energy transfer ( FRET). Uncapping was found to occur in cells at sites of active actin assembly, including protruding lamellae and rocketing vesicles, with the correct spatio-temporal properties to provide sites of actin filament polymerization during protrusion. These observations are consistent with models where uncapping of existing filaments provides sites of actin filament elongation.
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